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ASH & ALAIN INDIA PVT LTD S-100, F.I.E.E., Okhla Industrial Area, Phase-ii, New Delhi-110020(India) Tel : 011-43797575 Fax : 011-43797574 E-mail : [email protected]
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HOLLiAS MACS DCSMACS DISTRIBUTED CONTROL SYSTEM
Distributed Control System (DCS) refers to a control system used in process control or
continuous manufacturing which the controller elements are not centralized in a location but are distributed throughout the system. Each component’s subsystems are controlled by one or more controllers. The entire system of controllers are connected through a network for communicating, controlling, and supervising.
In the fast changing industry of process automation, it is not just about technology and
control, but more importantly, it is about getting the job done correctly. There is a rising demand for more critical advanced control system with greater management features to improve the entire enterprise’s competitiveness and competence, to reduce energy consumption and pollution, and to achieve sustainable development. At HollySys, we have ten years experience on DCS platform for the plant managers, engineers, and control room operators. Such requirements promote the development of a new generation DCS featuring total integration. We are proud to recommend to you our fourth generation DCS solution, the HOLLiAS MACS DCS.
As a leading supplier in automation control industry, HollySys developed the fourth
generation control system platform – HOLLiAS, based on international advanced automation control technology. Inherited the best characteristics of our previous DCS, the HOLLiAS MACS DCS brings you the next evolutionary step providing better information visibility, critical control, performance, and operational agility. It is an open system platform that is extremely reliable, flexible to configure by providing a complete solutions to your plant automation needs.
SCM CRM ERP RDA
RMIS QAS MMS
ENGINEER WORKSTATION OPERATOR WORKS
MACS-SMSerieswith
ControllerRedundancy
& I/O
Input / Outpu
Distributed I& Devices
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SYSTEM ARCHITECTURE OF HOLLiAS MACS DCS
ENTERPRISE OPERATIONAL AND MANAGEMENT LAYEREALTIME-RELATIONATABASE SERVER
WEB SERVER
Internet
EMS BMS PSS MCASTCP/IP Ethernet
MANUFACTURING EXECUTION SYSTEM LAYER
STATIONSYSTEM SERVER
MACS-FMSerieswith
ControllerRedundancy
& Power Supply
t devices
FM1200Controller
Redundancy
DP/PA Link
Input / Output devices
/O
DISTRIBUTED CONTROL SYSTEM LAYERDCS
MES
open connectivity inindustrial automationand the enterprise systems
The perfect process automation and control with enterprise level management based on the fully integration of DCS, PLC,
MES, and enterprise management.
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HollySys developed China’s first Distributed Control System in 1993 and since then we have been improving our DCS solutions.
HOLLiAS MACS DCS is our fourth generation DCS, a hardware and software platform for the modern automation industries demonstrating high state of art technology. Delivering the perfect process control and overall enterprise level management, the HOLLiAS MACS DCS platform is widely used in the process industries. Examples of industries application are thermal power, nuclear power, oil and gas, petrochemical, chemicals, pharmaceuticals, paper and pulps, metals and minerals, cement, beverage, glass, metallurgical, water treatment, and environmental protection.
Features
• Adopting industrial Ethernet technology, to ensure real-time communication, to improve stability, network security, and safety.
• Adopting the widely used Profibus-DP fieldbus technology, to achieve the following advantages:• Fulfilling decentralized risks and control, as well as centralized supervision in real time.
• I/O modules can be centralized or decentralized as per field situations to save cable costs.
• Profibus-DP was accepted in 2001 as the fieldbus standard for the industrial automation industry. Systems and equipment following this standard have been widely applied in various industries. Hence, HOLLiAS MACS DCS can easily communicate and exchange data with field devices or instruments from different suppliers or different branding.
• By offering two system models to choose from depending all on your application and size of installation. The MACS-FM series and MACS-SM series.
• The MACS-FM series is suitable for medium-scale and large-scale projects (within 10,000 physical points in terms of scale) with high-density installation architecture.
• The MACS-SM series is suitable for large-scale and ultra large-scale projects (within 100,000 physical points in terms of scale) with moderate density installation architecture.
• Flexible system architecture equips with wide I/O ranges from tens to hundreds of thousands to adapt to different application.
• Open system:• The system supports and provides OPC industrial standard interface based on COM/DCOM technology to standardize
software interfaces between equipment and application programs from different suppliers.
• The system can be easily connected with Profibus-PA smart transmitter or actuator through coupler or DP/PA link.
The Overview of HOLLiAS MACS DCS
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In 1999, HollySys utilized the Profibus-DP core technology with the
physical and link layer of the master and slave
stations.
Profibus-DP
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HOLLiAS MACS System Architecture
Data Communications Network
Operational LevelThe data communication of operational level is known as system network (SNET). SNET is used for data and resource connection, sharing, and printing between engineer stations, operator stations, system servers and field control stations.
SNET is redundant-capable to support real-time industrial Ethernet with star, loop, or bus topology structure. It follows the IEEE802.3 and IEEE802.3u standards with adaptable baud rate of 10/100Mbps and uses category 5 twisted pair or optical fiber with RJ-45 connection as transmission medium. Based on a reliable industrial Ethernet communication protocol, the transmission of data can be more open, real-time, and reliable.
Control LevelThe data communication of control level is known as control network (CNET). CNET adopts Profibus-DP industrial fieldbus to communicate with I/O modules and devices or instruments in automation system, in order to deliver real-time, speedy, and efficient process or field communication tasks. It follows the IEC61158 international standard (national standard JB/T10308.3-2001/European standard EN50170).
Profibus-DP adopts poll communication between the master and slave stations with a maximum baud rate that achieves 12Mbps, ideally. Profibus-DP link can be connected to a maximum of 126 nodes (0~125). Multiple communication mediums are applicable, including twisted pair, optical fiber, or a mixture of both. Maximum communication distance of twisted pair can reach 1.2km, while single-mode optical fiber can reach 10km, with complete diagnosis function to facilitate system maintenance.
Hardware
HOLLiAS MACS system hardware includes the following:
Engineer StationEngineer Station consist of a high-performance computer with DCS configuration software. It is used to perform DCS configuration and upload operational parameters to the field control station and operator station.
Operator StationOperator station consist of high-performance computer with optional touch screen HMI display. It is used to monitor the production process, conduct controls, and check the running status of the system network, controllers, and I/O modules in field control station.
Field Control StationField control station consists of the field controllers, I/O modules, power supply modules, terminal modules resides in the control cabinets. It does signal collection, conversion, various control and interlock algorithm, field signal output, etc. It also perform self-diagnosis of its operational status. HOLLiAS MACS DCS offers FM and SM series modules for flexible configuration.
System Server (optional)High-performance server is used to fulfill the management, accessing, data processing, and communication of real-time database and historical database. System server supports redundancy and can be configured according to project scale.
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SpecificationA large-scale HOLLiAS MACS DCS can include multiple groups of servers. System can be divided
into multiple domains. Each domain consists of certain number of engineer stations, operator stations, system servers, and field control stations, to enable relatively independent data collection and equipment control functions. Engineer station and operator station can operate on different domains by login.
Maximum Capacity
Engineering domain 8
Server 1 pair per domain (redundant)
Engineer station 16 sets per domain, 1 set per domain in normal conditions, multiple engi-neer stations allowed.
Operator station 32 sets per domain
Field Control Station 64 sets per domain
Controller 1 pair per control station (redundant)
I/O Modules 126 nodes (0~125) per control station (≤ 72 per control station is recom-mended for decentralization)
System Margin
Controller CPU peak load rate < 40%
Memory margin Around 30%
Data network load rate < 20%
Power supply load margin > 40%
Reliability
MTBF ≥200,000h
System availability ≥99.9%
Response Time
Minimum real-time data scan cycle 50ms
Minimum loop control cycle 50ms
Minimum logic control cycle 50ms
Real-time graph response time ≤1s
System Network
Communication protocol IEEE802.3/u, TCP/IP or industrial Ethernet protocol
Network structure Real-time industrial Ethernet
Communication medium Twisted pair cable category 5 or Optic fiber
Baud rate 100Mbps
Control Network (I/O bus)
Communication protocol Profibus-DP
Network structure Bus / Tree
Communication medium Shielded twisted pair or fiber optics
Baud rate Max. of 12Mbps; Typical 1.5Mbps, 500kbps
System Accuracy
AI accuracy ≤0.1%
AO accuracy ≤0.2%
SOE time resolution 1ms
Signal Interface
AI signal type, I/O range 0~5V, 0~10V, 0~10mA, 0 (4) ~20mA
Thermocouple signal type J, K, N, E, S, B, R, T
RTD signal type Cu 50, Pt100
SPECIFICATION
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AO signal type 4 ~ 20mA (max load 750 Ω)
DI signal type Dry contact/24VDC/48VDC/220VAC
DO maximum load capacity Transistor output: 50mA/30VDC; Relay output: 4A/220VAC, 1A/110VDC
Pulse Input, maximum frequency 10KHz (positive pulse)
Power Supply
AC input voltage
FM Power supply 90~250VAC, 50/60Hz±2Hz
SM Power supply 90~250VAC, 50/60Hz±2Hz
Power supply for redundancy 1:1 flow equalization redundancy
Input output isolation pressure resistance 3000Vrms
System Anti-disturbance Capability
AI channel CMRR ≥90dB
AI channel DMRR ≥60dB
Input loop isolation strength ≥500Vrms
EMC
Electrostatic discharge immunity test IEC61000-4-2 1995 level 3
Electrical fast transient/burst immunity test IEC61000-4-4 1995 level 3
Surge immunity test IEC61000-4-5 1995 level 3
Radiated, radio-frequency, electromagnetic field immunity test
IEC61000-4-3 1995 level 3
Immunity test for conducted disturbances induced by radio-frequency fields
IEC61000-4-6 1996 level 3
Voltage dips, interruption and voltage variations immunity test
IEC61000-4-11 1994 level 3
System Working Environment
Working temperature
FM I/O 0°C ~45°C
SM I/O 0°C ~50°C
Storage temperature
FM I/O -15°C ~ 65°C
SM I/O -20°C ~ 70°C
Working humidity 5~95% relative humidity, non-condensing
Storage humidity 5~95% relative humidity, non-condensing
Ingress Protection
FM I/O IP40
SM I/O IP20
Cabinet IP41
Vibration and shock
Vibration range Maximum 7.5mm (5~9Hz)
Acceleration Maximum 2.0g
SPECIFIC
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DRTE Protocol for the Industrial Ethernet
As DCS technologies move toward standardization and open architecture fulfilling interoperability, DCS systems developed in
the later half of 1990s adopted standard Ethernet and TCP/IP protocol for system network communications. This will resolve the problems of openness in network communications, the standards in networking equipment, and the reduction in cost for network communication. However, the design of standard Ethernet technology and TCP/IP protocol were intended to handle industrial application environment with high requirements for real-time, reliability, and stability.
Two major issues of the standard Ethernet and TCP/IP:
• Standard Ethernet CSMA/CD bus access mechanism can not resolve the real-time uncertainty caused by network collision;
• The wide applications of TCP/IP protocol calls for virus protection. Viruses transmitted by standard network protocols have brought extra pressure for DCS system stability, reliability and security.
DRTEProtocol
DR
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THE REAL-TIME ETHERNET
WITH SAFETY COMMUNICATIONS
THAT YOU CAN RELY ON
Under this circumstances, HollySys developed the DRTE protocol based on Ethernet. It fully utilizes the standard and high bandwidth features of the Ethernet, and resolves the issues of safety communication
and real-time uncertainty caused by traditional “Ethernet +TCP/IP protocol” mode.
Features
• DRTE protocol can operate in various operating system platform such as Windows 2000, Windows 2003, Windows XP, LINUX, etc...
• Built-in support for network redundancy switching, switch time <1s.
• Maximum network nodes: 255.
• Zero copy technology.
• Provide message receiving and sending interface, based on node numbers and ports, similar to UDP protocol.
• Adapt to 10/100/1000 Mbps standard Ethernet network hardware from different manufacturers.
Values
• Real-time: Certainty real-time Ethernet communication protocol.
• Open: Compatible with TCP/IP (not real-time channel).
• Safe: Preventing the spread of network virus in DCS system.
• Cost: By adopting standard Ethernet hardware, the cost in maintenance, personnel, training and spare parts are reduced.
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System Core Hardware – Field Control Station
Field control station, the signal collecting and controlling equipment, is the core hardware of HOLLiAS MACS DCS. Functioning as signal collection, loop regulation, sequence control, and logic interlock,
etc, it is the master unit for data collection and process control.
Hardware Structure of Field Control StationField control station consists of control racks,
controllers, power supply modules, smart I/O modules, terminal modules, communication network, and control cabinets. Controllers and smart I/O modules have built-in real-time operating system and I/O module operating software, as well as complete LED indicators showing their operational status.
Control racks, controllers, power modules, smart I/O modules, terminal modules, and communication network are all located inside field control cabinet. The cabinets can be installed in the control room or distributed on site.
Hardware & Application FeaturesFM and SM series modules are designed to be reliable, advanced,
and easy-to-use. The following are their technical features: • The physical structure of controller is independent from I/O modules
all supporting hot swap features for easy maintenance. • Main controller adopts high shock-proof and low power consumption
CPU working without fans for a longer and safer operational period. (CPU fans in industry field usually last no more than 2 years) The long period power consumption for the entire controller is less than 7.5 watts. All CPU and memories inside the controllers adopt SMT or DIP insertion mode to improve its shock-proof performance.
• Power modules are small, light, and highly efficient, with powerful anti-disturbance, wide input voltage ranges, and load sharing in parallel as redundancy;
• Smart IO modules, built-in micro-controllers, supporting Profibus-DP slave station interface;• Independent A/D or D/A circuit; low density design, 8 AIO and 16 DIO for each module. AI and AO
can both support redundancy.• Isolation between field and electrical system, partial AIO inter-channel isolation, DI optical-coupling
isolation, DO optical-coupling or relay isolation.• Automatic power-on for controllers and I/O modules with normal working conditions status.
FM and SM series modules have different features in terms of structure and installation to meet the requirements of various industrial applications.
The Features of FM ControllerThe controllers and power supply modules have independent physical structures from I/O modules. They adopts centralized installation on a system rack with redundant configuration for better reliability and shock-proof.
Distributed smart I/O modules are installed on 35mm standard DIN rails, with anti-protection key on the base (preventing wrong modules insertion), supporting hot swap, and no messy wiring involved.
I/O module can cable out from the base or through the terminal board; modules can be centralized, decentralized, or distributed remotely; The Profibus-DP fieldbus can be extended through repeaters; or by using additional bus controller to support redundancy.
Field Control Cabinets
FCS
- Field C
ontrol Station
The FM Controller installed on a system rack
The FM Smart I/O Modules
FM and SM modules
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The Features of SM Controller• Optimized installation structure to adapt to severe
environment: SM series adopt 4U integrated rack structure to install power modules, controllers, and IO modules in one rack. Each module is fastened on the rack through two fastening hooks on both ends. Such installation can better adapt to severe environment in terms of shock-proof.
• Distributed power modules for better power supply reliability: Each SM rack has 2 redundant power supply modules adopting load sharing redundancy, limiting power failure impact to one single rack.
• Redundant Profibus-DP network: SM racks can be remotely distributed without repeaters and redundancy controllers.
• Lower power consumption of the IO modules: The power consumption of IO modules has been reduced to less than 3W, which does not only increase the working environmental temperature of modules, but also improves their reliability.
• Multiple isolation protections ensuring reliability and safety of the hardware system: Isolation between channels, between field and system, between racks, and between communication networks. These isolation measures ensure the reliability and safety of hardware system.
• Terminal wiring on the back of cabinet and function modules on the front of cabinet: This ensures clean distribution, facilitates system maintenance, and improves safety.
• Terminal modular design for better protection: Each terminal module has a cover that can be easily removed without using tools. This protects the terminals and facilitates daily maintenance such as changing relays or fuse.
Hardware ReliabilityHOLLiAS MACS DCS features the following reliability technologies which are proven effective in over
3500 projects installation.
Redundancy• Controller Redundancy
Controllers redundancy are used with one primary and the other standby. It is designed with hardware redundancy, shift and fault self-detect circuit. Two controllers receive network data and make calculation at the same time but only one outputs the calculated results and updates the real-time data. Once the primary controller fails, the standby unit will be shifted to work as the primary without any disturbances.
• Power Supply Redundancy ModulesPower modules are specially designed in redundant configuration, in case one power module fails, the other will take over all the power load.
• I/O Redundancy
AI/AO equipment are configured in redundancy.
• Network RedundancyIndustrial Ethernet interfaces with redundancy are configured for the controller with embedded Profibus-DP master station interface. For example, the Profibus-DP redundancy controller unit, FM1200, is used for network redundancy in terms of MACS-FM series. MACS-SM series also supports network redundancy.
Distribution and IsolationFM series, mounted in rails, can be centralized, distributed or remotely distributed. Barrier circuit (channel isolation for AI/AO, optical-coupling isolation for DI, optical-coupling isolation or relay isolation for DO) prevents disturbance from the system. Channel isolation is able to eliminate the damage caused by field potential difference.
The SM Controller
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Easy Maintenance• Self-diagnosis
With embedded controller, each module is able to have periodic self-diagnosis, including the following:
• DO channel: read-back, comparison, self-diagnosis.
• AI channel: adopts special input channel fault-diagnosis technology, diagnoses and checks open-circuit, short-circuit and jump.
• AO channel: adopts special output channel fault-diagnosis and diagnoses output channel and executor.
• Status IndicatorsThere are LED indicators in all modules and controllers, including running indicator, error indication and network communication indicator. The running status of all modules is clear. At the operator station, operators can call the system status graphic to monitor the running status of each station or each module.
• Support hot swap.Controller and all AI, AO, DI, DO support hot swap, which enables easy maintenance in case that any module fails. All input/output signals are connected to terminal module. I/O signal enters I/O module through terminal module. No wiring changes are required when the I/O module needs replacement.
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Hot Swap for FM Modules
Hot Swap for SM Modules
Error Indicators for FM
Error Indicators for SM
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HOLLiAS MACS System Software
Overview
HOLLiAS MACS provides user-friendly HMI, powerful programming and simulation software that takes care of the configuration of all functions and data storing and processing capability that is able to record important historical data and provide reports.
The power of all these functions lies in the software structure and technology. Client/Server structure is adopted by HOLLiAS MACS DCS operating level to guarantee data coherence, completeness and safety, featuring good flexibility and expandability.
With COM/DCOM, middleware technology and OPC technology, HOLLiAS MACS software system supports and provides OPC interface based on COM/DCOM technology. With standard OPC interface, data communication between instruments of different suppliers becomes easier to maintain and no special interface programming is necessary.
User-friendly HMI
With HOLLiAS MACS HMI, the operators are able to get the whole process information, browse the flow chart, quickly identify various events, and input the required control parameters to ensure safe operation of the various equipment. In addition, with corresponding authorization, operators, maintenance engineers, and managers are able to track the process, modify process parameters, and obtain reports.
Engineering Flow Chart• All the measuring points monitored by the control system can be
displayed using graphics icons or symbols including digit, current value, dimension, value ranges with upper and lower limits.
• Support multi-level display structure, display levels can be designed according to engineering procedure and running sequence.
• The graphics can be called in various modes such as menu mode, movable window display, automatic pop-up display, hot point call and keyboard call.
AlarmsHOLLiAS MACS alarm function helps and reminds the operator to solve sudden in case of abnormal status or equipment failure status during the production process. Alarms are categorized into process alarm, equipment alarm and SOE signal alarm.
ReportsHOLLiAS MACS software provides integrated report system, which can print all the measuring points in the database. The measuring points in the report can be printed in formats defined by users. Automatic printing or manual printing is optional.
LogsHOLLiAS MACS software provides logging function which can automatically records, stores, and checks all the sudden events in sequence and provides detailed evidence for managers to analyze the events.
Logs can be classified into daily log, equipment log, operation log, SOE log and simplified log. Logs can be displayed in track mode and historical mode. In track mode, the system will automatically display the most recent information. In historical mode, historical event can be displayed. All event
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Engineering Flow Chart
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Historical Trends
information, operation parameter setting events, alarm monitor and timing information are grouped into different logs.
Historical TrendHOLLiAS MACS software records all information of the measuring points in a database and displayed either in the form of data or charts, featuring with flexible modified time axis ranges and parameter axis ranges. Trend curve provides monitoring platform for plant managers or administrator to know if the production process is safe and effective.
Various trend can be displayed such as general trend, digital trend, XY trend and comparative trend. General trend deals with both analog and digital trend information. Digital trend takes care of digital trend information and functions as modification query. XY trend handles trend information composed by two related parameters as XY axis, mainly used to provide safe information. Comparative trend reflects the difference between actual and planned processes by comparing the preset parameter curve and actual parameter, mainly used for line running supervision.
General trend, digital trend and XY trend can be displayed in track mode and historical mode. General trend can be displayed in curve and data and the other two can only be displayed in curve.
Maximum of 8 measuring points trend can be displayed for analog and digital trend. Maximum of 4 curves can be displayed for XY trend
display. And the curve display range scope is real-time modified according to the curve fluctuation displayed on the screen to easily identify the change of curve. The operator is allowed to select or shield this function.
Powerful Configuration SoftwareHOLLiAS MACS provides user-friendly, powerful programming, and simulation software to configure
all system functions and collectively control and manage the whole project execution. The software consists of system equipment, database, control calculation, graphic, report, off-line simulation, and on-line management. It provides an integrated platform to design your graphical Interface and control strategy.
Integrated DatabaseIntegrated database stores all configuration data and settings. Database configuration is to define and edit the measuring point information, including actual physical measuring points and Mid-variables.
Large Graphical LibrariesHOLLiAS MACS graphical layout and design software enables users to design a direct and clear operational user interface. With the help of the large and practical graphical libraries, users are able to easily draw complex and beautiful graphic such as animation, data, curves bar charts and real-time display of all the devices and instruments or display complicated tables for any data type. HOLLiAS MACS software also provides a dynamic icons to indicate the running status of equipment and parameter value as real-time dynamic points. Users are also allowed to have personal graphic library and store frequently used graphic in the library as icons for repeated usage.
Powerful Control Strategy Generation ToolConsist of control calculation editor and simulation debugger, the control strategy generation tool allows you to write control algorithms through programming, downloading, and simulating.
• Control Strategy Programming
HOLLiAS MACS control strategy generation tool provides rich function block calculation library, like
Logs
Large Graphical Libraries
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IEC operator, type transfer function, timer, trigger, counter function, emergency events function, PID control, fuzzy control and sequence control. Users are also allowed to add self-defined functions. Typical industrial control algorithms, like batch control, PID loop, complex loop, logic loop, hybrid loop, advanced control calculation and special recipe control can be fulfilled by using library function.
• User Programmable Functions
HOLLiAS MACS control strategy generation system allows users to have further development on it, providing self-defined functions and function blocks. Users are able to program complex control modules with six programming languages and embed them to the system.The control strategy configuration interface adopts an explorer-like window with tree-structures to display the control solutions and set basic attributes, like solution name, used language, calculation cycle, calculation switch and sequence.
• On-line Download without Disturbance
All databases in HOLLiAS MACS system can be downloaded to the controller. The system provides specific reminding and warning information during the download. Modified incremental files can also be downloaded to the controller without disturbing system running.
• Convenient Off-Line Simulation Environment
HOLLiAS MACS provides off-line simulation environment. Users are allowed to debug the control algorithms configuration in non-field environments like at home or offices. Under the simulation mode, program can run independently from the controller. Breakpoint, monitor variable, single-step execution, single-loop execution, jump execution, call execution, call stack check, flow control, value modification and forced output can be set during simulation.
• On-line Modification
The system supports on-line modification. Users can login the controller to modify auxiliary information like range without affecting the running system and process. Meanwhile, users are also allowed to force output and input variables and cancel the forcing. Breakpoint setting, monitoring variable, single-step execution, single-loop execution, jump execution, call execution, call stack check and flow control can be applied.
Supports Six Industrial Standard Programming Languages
HOLLiAS MACS adopts IEC61131-3 configuration tools and provides six standard industrial programming languages, FBD, LD, ST, IL, SFC and CFC for different industrial control applications.
FBD-Function Block DiagramFBD, a Graphical function block language, enabling calculation and control. FBD consists of basic function blocks, links and input/output terminals and prescribes the call sequence of all function blocks and parameters required by corresponding module calculation.
LD-Ladder DiagramLD is continuous executing language used for basic logic control, consisting of contacts (normal open/close, positive slope triggering, negative slope triggering, reversion), coil (output, monostability, lock, unlock, jump), connection, timer and counter. LD is good at quick discrete logic control, including motor control, interlock, random check and simple sequence control.
ST-Structural TextST is used for complex control applications composed of some key characters and instructions, like symbols (key characters, operators, modifiers, and operands), statements (expressions, control statements), functions and function blocks. Control solutions can be programmed taking character line as the unit.
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Rich Function Block Libraries
Online Modification
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IL-Instruction ListIL is the most fundamental computer programming language. It can be simply operated with abundant content.
SFC-Sequence Function ChartSFC is used as the connection between continuous control or logic control and input/output monitor to describe and control the sequence operations of the process events, applying to events with plenty of status controls. SFC consists of a series of steps and transitions, each step including a group of actions affecting the process. SFC supports concurrent sequence and diversified qualified characters. Each action can be fulfilled by any of the above four languages.
CFC-Continuous Function ChartCFC is similar with FBD but there is no node in CFC.
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FBD- Function Block Diagram LD- Ladder Diagram ST-Structured Text
IL-Instruction List
SFC-Sequence Function Chart
CFC-Continuous Function Chart
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E LIST OF SM SERIES MODULESTYPE PRODUCT CODE PRODUCT NAME SPECIFICATION
MODULE RACK
SM120 10 slots Module Rack for controller 2x power supply + 6x I/O + 2x controller modules
SM121 10 slot Module Rack for I/Os 2x power supply + 8x I/O modules
SM130 14 slots Module Rack for controller 2x power supply + 10x I/O + 2x controller modules
SM131 14 slot Module Rack for I/Os 2x power supply + 12x I/O modules
MAIN DPU CONTROLLER
SM201-Smartpro Main DPU Controller with 100Mhz processor Embedded x86 processor, 100MHz
SM201-MACS-V Main DPU Controller with 100Mhz processor Embedded x86 processor, 100MHz
SM203-MACS-V Main DPU Controller with 400Mhz processor Embedded x86 processor, 400MHz
EXPANSION MODULES
ANALOG INPUTS
SM410 8 channels voltage AI module 0 ~ 5.5V / 0 ~ 11V
SM413 8 channels (channel isolation) voltage AI module
SM412 8 channels current AI module with HART support
SM481 8 channels current AI module 0 ~ 11mA / 0 ~ 22mA
SM432 8 channels RTD AI module Cu50, Pt100, constant current
SM472 8 channels thermocouple AI module ± 80mV
ANALOG OUTPUTS
SM510 8 channels current AO module 4 ~ 20mA
SM511 8 isolated channels current AO module 4 ~ 20mA / o ~ 20mA
SM512 8 channels current AO module with HART support
SM520 6 channels current AO redundancy module 4 ~ 20mA
SM522 6 channels current AO redundancy module with HART support
DIGITAL INPUTS
SM610 16 points DI module, 24VDC 24VDC
SM618 16 points DI module, 48VDC 48VDC
SM611 16 points DI module, 24VDC, SOE 24VDC, Sequence of Events
SM619 16 points DI, 48VDC, SOE 48VDC, Sequence of Events
SM620 8 channels pulse input module - 0 ~ 10KHz 0 ~ 10KHz
DIGITAL OUTPUTS SM711 16 points transistor type DO module 50mA, 24VDC
COMMUNICATIONS SM020 MODBUS communication module
DEH Steam Turbine Generator Application
Module
SM461 DEH Steam Turbine Generator Servo Unit Module
SM3461 DEH Steam Turbine Generator - Servo Unit I/O Terminal Block Terminal I/O Block
SM351 DEH Steam Turbine Generator - Primary Frequency Terminal Module
SM632 DEH Steam Turbine Generator - Speed Measurement,Drag Speeding, & Overspeed Protection Module
For use in general industrial application
SM633 DEH Steam Turbine Generator - Speed Measurement & Overspeed Protection Module
For use in Electric Power Plant Application
POWER SUPPLY MODULES
SM900 DC Power supply module with Dual isolated channel 24VDC / 5VDC 220VAC Input; 2A@24VDC or 7A@5VDC output, 2 isolated channel output
SM902A DC Power supply module - 24VDC converted to 5.1VDC 24VDC converted to 5.1VDC
SM910 DC Power supply module - 24VDC
SM911 DC Power supply module - 24VDC (240W) 240W, Max
SM920 DC Power supply module - 48VDC (120W) 120W, Max
SM933 AC Power supply distribution module - 110V ~ 240VAC 110V ~ 240VAC
SM934 AC Power supply module with dual channel, auto switch, 110V ~ 240VAC 110V ~ 240VAC
SM940 DC Power supply distribution module - 24VDC / 48VDC 24VDC / 48VDC
MISCELLANEOUS / SPECIAL MODULES
SM632 DEH Over-Speed protection module Industrial Digital Electro Hydraulic (DEH) - steam turbine's speed measurement, drag speeding, and protection module
SM633 DEH Over-Speed protection power generator module Digital Electro Hydraulic (DEH) generator - steam turbine, speed measurement, and protection module
TERMINAL I/O BLOCKS
SM3310 Standard double row terminal block
SM3330 8 channel Current AI redundancy terminal block
SM3340 8 channel Voltage AI / Current AO redundancy terminal block
SM3412 8 channel Current (limited protection) AI redundancy terminal block
SM3432 8 channel RTD AI terminal block
SM3470 8 channel Thermocouple AI terminal block
SM3471 7 channel Thermocouple AI terminal block with cold-end compensation
SM3480 8 channel Current AI terminal block
SM3510 8 isolated channel Current AO terminal block
SM3610 16 channel DI terminal block
SM3611 16 channel DI terminal block, 110V~240VAC 110V~240VAC
SM3612 16 channel Power distribution terminal block - 48VDC 48VDC
SM3613 16 channel Pulse distribution terminal block - SOE timing SOE timing
SM3614 16 channel 24VDC Isolated Relay DI terminal block 24VDC
SM3710 16 channel AC relay DO terminal block - 110V~240VAC, 1A 110V~240VAC, 1A
SM3711 16 channel DC relay DO terminal block - 110VDC 110VDC
SM3712 16 channel AC/DC solid-state relay DO terminal block
SM3713 16 channel AC relay DO terminal block - 110V~240VAC, 4A 110V~240VAC, 4A
SM3714 16 channel DC relay DO terminal module - 30VDC 30VDC
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LIST OF FM SERIES MODULESTYPE PRODUCT CODE PRODUCT NAME SPECIFICATION
RACK FM301 8 slots controller rack 6 power supply + 2 controller modules
MAIN CONTROLLER
FM801 - SmartproFM801 - MACS-V
Main controller with 100MHz processor Embedded x86 processor, 100MHz
FM803-SmartproFM803 - MACS-V
Main controller with 400MHz processor Embedded x86 processor, 400MHz
ANALOG INPUTS
FM143E 8 isolated channels RTD AI module 0 ~ 400 Ω
FM147E 8 isolated channels thermocouple AI module J,K,T,N,E,R,S,B thermocouple type and mV type
FM148A 8 channels voltage / current AI module 0 ~ 5V / 0 ~ 10V, 0 ~ 20mA, 0 ~ 10mA, 4 ~ 20mA
FM148C 8 channels voltage / current AI module 0 ~ 5V / 0 ~ 10V, 0 ~ 20mA, 0 ~ 10mA or0 ~ 5.5V, 0~11V, 0 ~ 22mA, 0 ~ 11mA
FM148E 8 isolated channels voltage / current AI module 0 ~ 5V / 0 ~ 10V, 0(4) ~ 20mA
FM148R 8 channels voltage / current AI redundancy module 0 ~ 5V, 0(4) ~ 20mA
ANALOG OUTPUTSFM151A 8 channels current AO module 4 ~ 20mA
FM152A 6-channel current AO redundancy module 4 ~ 20mA
DIGITAL INPUTS
FM161D 16 points DI module, 24VDC 24VDC
FM161D-48 16 points DI module, 48VDC 48VDC
FM161D-48- SOE 16 points DI module, SOE, 48VDC 48VDC, Sequence of Events
FM161D-SOE 16 points DI module, SOE, 24VDC 24VDC, Sequence of Events
FM161E-48-SOE 15 points DI module, SOE, 48VDC Emergency, hard-timing/response time SOE, 48VDC
FM162 8 channels pulse input module 0 ~ 10 KHz
DIGITAL OUTPUTSFM171 16 points relay type DO module Passive, Normally Open
FM171B 16 points transistor type DO module Optical coupling
COMMUNICATION MODULES
FM1200 Profibus-DP controller redundancy module
FM1201 Profibus-DP repeater module
FM1202 Profibus-DP fiber optical transducer module
FM192A-TR Profibus-DP Terminal Adapter
FM1302 Profibus-DP controller base module
FM1303 Profibus-DP repeater base module
DEH Application
FM163D DEH Turbine Generator - Speed Measurement & Overspeed Protection Module
Industrial Application (smaller unit)
FM163E DEH Turbine Generator - Speed Measurement & Overspeed Protection Module
Electric Power Plant Application (larger unit)
FM165 DEH Steam Turbine Generator - Primary Frequency Function Module
FM131A-DEH DEH adapter module
FM1460 DEH Turbine Generator Servo Unit - Terminal Module
FM146A DEH Turbine Generator Servo Unit - Function Module
MISCELLANEOUS / SPECIAL MODULES
FM185 Remotely Temperature Data Acquisition Module
FM192B-CC Thermocouple cold-end compensation module
FM197 16 channel Time-Sync Hub Function Module
FB1431 Cu50 Installation Terminal Board
FB149 16 channel Level Detection DI Terminal Board
POWER SUPPLY MODULES
FM910 Power supply module, 24VDC, 6A 24V ±10%, 180W@Max
FM920 Power supply module, 48VDC, 2.3A 48V ±10%, 150W@Max
FM931 Power supply distribution module, 24V / 48VDC 24V ±10% / 48V ±10%
TERMINAL MODULES / BASE
MODULES
FM1310 Terminal Base Module (Phoenix Connector)
FM131A Standard Terminal Base Module 40 wiring terminal
FM131-C Terminal Base Module (box-head connector) Flat cable type connection w/ box-head connector
FM131-E Terminal Base Module (37-pin D-type connector) Round cable connection w/ D-type connector
FM132 AO redundancy terminal module Use with FM152A
FM133 Current AI redundancy terminal module Use with FM148R
FM134 Voltage AI redundancy terminal module Use with FM148R
TERMINAL MODULES
EXPANSION
FM136-DCR 16 channel 220V/110V DC, redundancy DI Terminal Module
FM-138-ACR-A 16 channel AC relay redundancy DO terminal module dual-link type terminal, IDEC Relay
FM-138-ACR-C 16 channel AC relay redundancy DO terminal module dual-link type terminal, Matsushita Relay
FM-138-DCR 16 channel DC relay redundancy DO terminal module dual-link type terminal
FM138-SSRR 16 channel AC/DC solid-state relay DO redundancy terminal module dual-link type terminal
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Our Achievements
HollySys is one of the leading automation control systems providers for various industries. Our automation control systems have been successfully applied in many key infrastructures
such as large thermal power plant, nuclear power plant, etc, and have played an important role in many projects including China’s railway speed upgrade and urban mass transit. By the end of 2007, we have served more than 3,000 customers and undertaken over 6,000 projects. All these achievements prove that HollySys’ products and technologies have great extensiveness, reliability and many other advantages.
Power IndustriesThe power industries has become an important factor of HollySys business. Started since 1995, HollySys have access to the power industries providing solutions from the furnace and turbine control up to the information management system. We have completed over 1,200 power plant projects covering each field of the production process from 6 megawatt up to 600 megawatt power plant. We provides a complete solution from the control layer up to the management layer of a DCS. It fulfilled the automation and information needs of the various processes from the raw material transportation and processing, boiler combustion (pulverized coal/Circulating Fluid Bed Boiler), steam turbine (steam turbine and heat recovery monitor and control), system monitoring and control of the generator and plant electrical system, waste and exhaust treatment, as well as the management system of the production processes.
Oil and Gas, Petrochemical, and ChemicalHollySys has successfully completed over 1000 projects in the industries field for oil & gas, petrochemical, and chemical. HollySys product has been chosen by BASF Chemical Co., Ltd., a German company among the world top 500 enterprise, and has become the qualified supplier for China’s Huanqiu Contracting & Engineering Corp., the largest chemical design institute in China.
Metro / Urban Mass TransitHollySys have implemented the China’s first project of integrated supervision and control system to the number 13 line of Beijing Urban subway in 2000. HollySys has successfully integrated the MACS-SCADA Integrated Supervision and Control System and implemented the projects for the integrated supervision and control system for roughly ten major subways in China, including Beijing, Shenzhen and Guangzhou.
Environment Protection & Waste IndustriesWe have completed projects for the environmental infrastructure such as urban sewage centralized treatment, smoke dedust and desulphurization, and garbage incineration & power generation, fullfilling the complete automation process from production to information monitoring and supervision.
HollySys control system products (DCS and PLC) have been operating in over 100 sites in environmental protection industry. Some of them are water treatment projects with PLC products. HollySys has also mastered some advanced control technologies for key processes, such as garbage incineration technology and turbine sliding pressure operation technology, with applications in over 10 projects. HollySys has completed over 40 smoke dedust and desulphurization projects utilizing DCS technology.
Machinery and Manufacturing IndustriesHollySys’s LM Micro Series PLC, characterized by numerous good features such as back-up protection, off-line simulation, abundant instructions, and reliable control, is labeled as a high-performance and quality PLC product offering good economical profit for our customers.
The LM Micro Series PLC is widely applied in all industrial and equipment like printing machine, building material machine, packing machine, plastic machine, etc...
Pulp & Paper IndustriesHollySys has hundreds of successful DCS applications in pulp and paper industry. Our solution covers every unit of the whole plant, including raw material preparation, pulp making, chemicals recovery, dry end of paper machine, QCS, conveying system, steam boiler, plant power transmission & distribution, as well as water treatment.
Metals, Mining, Cement, & Glass IndustriesBuilding material and metallurgical industry is another important fields. We have completed over 100 engineering projects providing management and control solution from production control level to management level.
HollySys applications in building material industry include cement, glass fiber, and glass. HollySys has completed over 80 DCS systems and testing projects for cement production lines, and over 20 glass/glass fiber projects. HollySys products are successfully put into operation for 1000t/d, 2500t/d, 4000t/d and 5000t/d clinker production lines of cement factories in China.
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1st Generation DCS
19932nd Generation DCS
19963rd Generation DCS
19994th Generation DCS
2004
HS-DCS-1000
HS 2000 MACSMACS-FMMACS-SM
Our DCS Evolution DC
S E
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LUTIO
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Automation and ControlFor 15 years, the HollySys name has stood for quality and reliability. HollySys proudly o�ers a wide range of automation and control products from PLCs to DCS to help you �nd the solution for any industrial automation and process control application. We are the global supplier of choice for innovative technology backed by the highest level of service and support. When you need products and solutions you can rely on, choose HollySys.
Visit our Web site for the latest information.http://www.hollysys.com
Information found in this brouchure is subject to changes without notice.
HollySys (Asia Paci�c) Pte Ltd
200 Pandan Loop, #08-01Pantech 21, Singapore 128388
Tel: (65) 6777-0950Fax: (65) 6777-2730
Headquarters
Beijing HollySys Co., Ltd
No. 10 Jiancaicheng Middle Road,Xisanqi, Haidian District,
Beijing, 100096, People’s Republic of ChinaTel: (86) 10-5898-1000Fax: (86) 10-5898-1100
www.hollysys.com
All Rights Reserved. Copyright© 2008
April /2008
CAT-DCS-2008-04-00001
ASH & ALAIN INDIA PVT LTD S-100, F.I.E.E., Okhla Industrial Area, Phase-ii, New Delhi-110020(India) Tel : 011-43797575 Fax : 011-43797574 E-mail : [email protected]